Your search keyword '"Aifang Yang"' showing total 4 results

1. Enhancement of drought resistance and biomass by increasing the amount of glycine betaine in wheat seedlings

Author

Xiaorui Hu, Aifang Yang, Qiang Gao, Chunmei He, Weiwei Zhang, and Juren Zhang

Subjects

Choline dehydrogenase, fungi, food and beverages, Plant physiology, Plant Science, Genetically modified crops, Horticulture, Biology, chemistry.chemical_compound, Betaine, Agronomy, chemistry, Osmolyte, Glycine, Genetics, Osmoprotectant, Common wheat, Agronomy and Crop Science

Abstract

Drought is a major agricultural menace reducing crop productivity and limiting the successful realization of land potential throughout the world. Therefore, breeding common wheat with improved drought-tolerance via genetic manipulation is of great importance. We have introduced the betA gene encoding choline dehydrogenase from Escherichia coli into common wheat (Triticum aestivum L.) by Agrobacterium-mediated transformation. Various levels of expression of the betA gene were confirmed by RT-PCR among the transgenic lines and different levels of glycine betaine accumulation were detected in these lines. Several wheat transgenic lines with different betA expression levels in the T3 generation and wild-type (WT) were selected to test their performance under drought stress conditions. Water deficit in plants caused a reduction in photosynthesis and activity of the PSII complex and resulted in increased accumulation of osmolytes. Drought stress also led to lower membrane stability along with much higher activities of superoxide dismutase and peroxidase in all wheat lines. However, wheat lines that were transgenic for the betA gene were less injured and exhibited greater root length and growth compared with the WT. It was concluded that the amount of injury to the wheat plants was negatively correlated with the level of accumulation of glycine betaine, and the glycine betaine acted as an important osmoprotectant in transgenic plants to improve root growth, and enhance the resistance of transgenic plants to drought stress.

Published

2010

2. Stability of inheritance of transgenes in maize (Zea mays L.) lines produced using different transformation methods

Author

Aifang Yang, Xiaoyan Yin, Yongsheng Zhang, Guosheng Li, and Juren Zhang

Subjects

Genetics, Acetolactate synthase, Genetically modified maize, Transgene, Genetic transfer, Locus (genetics), Plant Science, Genetically modified crops, Horticulture, Biology, Transformation (genetics), Backcrossing, biology.protein, Agronomy and Crop Science

Abstract

The inheritance and stability of the acetolactate synthase (als) transgene were compared in transgenic maize plants, generated using the pollen-tube pathway, particle bombardment, or Agrobacterium-mediated methods of transformation. Progeny populations generated by successive selfing or backcrossing of primary transformants were analyzed over three generations, using PCR and herbicide screening, to examine segregation and als activity, respectively, and transgenic homozygous plants were selected. The pollen-tube method resulted in a higher rate of primary normal transgenic plants and a less-stable transmission of the als locus than did the other two methods. When transferred by the particle bombardment and Agrobacterium-mediated methods, the als gene was in a much higher proportion of Mendelian transmission than transferred by the pollen-tube method. Compared to the Agrobacterium-mediated transformation, the particle bombardment method tends to create multiple copies and insert sites of the als gene in maize genome, which delaying the homogenization of the als locus with advancing generations. Agrobacterium-mediated transformation resulted in a greater proportion of stable, low copy number (in general 1–2) transgenic events, facilitating the stable inheritance of the als gene, and producing multiple desirable transgenic plants.

Published

2005

3. Creation of new maize germplasm using alien introgression from Zea mays ssp. mexicana.

Author

Lingzhi Wang, Aifang Yang, Chunmei He, Mingli Qu, and Juren Zhang

Subjects

*CORN, *PLANT germplasm, *PLANT genetic engineering, *IN situ hybridization, *CULTIVARS

Abstract

Zea mays ssp. mexicana, an annual wild relative of maize, has many desirable characteristics for maize improvement. To transfer alien genetic germplasm into maize background, F1 hybrids were generated by using Z. mays ssp. mexicana as the female parent and cultivated maize inbred line Ye515 as the male parent. Alien introgression lines, with a large range of genetic diversity, were produced by backcross and successive self-pollinations. A number of alien introgression lines with the predominant traits of cultivated maize were selected. Genomic in situ hybridization (GISH) proved that small chromosome segments of Z. mays ssp. mexicana had been integrated into the maize genome. Some outstanding alien introgression lines were evaluated in performance trials which showed 54.6% hybrids had grain yield greater than that of hybrid check Yedan12 which possessed 50% Ye515 parentage, and 17.1, 9.9% hybrids had grain yield competitive or greater than those of Nongda108 and Zheng958, which were elite commercial hybrids in China, respectively. The results indicated that some of the introgression lines had excellent agronomic traits and combining ability for maize cultivar, and demonstrated that Z. mays ssp. mexicana was a valuable source for maize breeding, and could be used to broaden and enrich the maize germplasm. [ABSTRACT FROM AUTHOR]

Published

2008

4. Stability of inheritance of transgenes in maize ( Zea mays L.) lines produced using different transformation methods.

Author

Yongsheng Zhang, Xiaoyan Yin, Aifang Yang, Guosheng Li, and Zhang, Juren

Subjects

TRANSGENE expression, GENE expression, TRANSGENES, GENES, CORN, FORAGE plants, GRAIN, CROP genetics, PLANT genetics

Abstract

The inheritance and stability of the acetolactate synthase ( als) transgene were compared in transgenic maize plants, generated using the pollen-tube pathway, particle bombardment, or Agrobacterium-mediated methods of transformation. Progeny populations generated by successive selfing or backcrossing of primary transformants were analyzed over three generations, using PCR and herbicide screening, to examine segregation and als activity, respectively, and transgenic homozygous plants were selected. The pollen-tube method resulted in a higher rate of primary normal transgenic plants and a less-stable transmission of the als locus than did the other two methods. When transferred by the particle bombardment and Agrobacterium-mediated methods, the als gene was in a much higher proportion of Mendelian transmission than transferred by the pollen-tube method. Compared to the Agrobacterium-mediated transformation, the particle bombardment method tends to create multiple copies and insert sites of the als gene in maize genome, which delaying the homogenization of the als locus with advancing generations. Agrobacterium-mediated transformation resulted in a greater proportion of stable, low copy number (in general 1–2) transgenic events, facilitating the stable inheritance of the als gene, and producing multiple desirable transgenic plants. [ABSTRACT FROM AUTHOR]

Published

2005